RU2009120382A

RU2009120382A - SYSTEM AND METHOD FOR DIGITAL SIGNAL PROCESSING

Info

Publication number: RU2009120382A
Application number: RU2009120382/08A
Authority: RU
Inventors: Энтони БОНДЖИОВИ (US); Энтони БОНДЖИОВИ
Original assignee: Энтони БОНДЖИОВИ (US); Энтони БОНДЖИОВИ
Priority date: 2006-11-30
Filing date: 2007-11-29
Publication date: 2011-01-10
Also published as: IL198914A0; BRPI0719552A2; EP2095513B1; EP2095513A4; WO2008067454A3; RU2483363C2; JP2010512067A; NZ577201A; IL198914A; KR101503541B1; DK2095513T3; KR20090101209A; AU2007325096B2; MX2009005699A; CA2670973A1; CN101589429B; EP2095513A2; WO2008067454A2; JP5048782B2; AU2007325096A1

Abstract

1. Способ обработки сигнала, включающий следующие этапы: ! первое регулирование усиления сигнала; ! фильтрование отрегулированного сигнала с помощью первого низкополочного фильтра; ! компрессия отфильтрованного сигнала с помощью первого компрессора; ! обработка сигнала с помощью графического эквалайзера; ! компрессия обработанного сигнала с помощью второго компрессора; ! второе регулирование усиления сжатого сигнала и ! вывод сигнала. ! 2. Способ по п.1, дополнительно включающий следующие этапы: ! фильтрование сигнала, полученного с первого низкополочного фильтра с помощью первого высокополочного фильтра до компрессии отфильтрованного сигнала с помощью первого компрессора; ! фильтрование сигнала с помощью второго низкополочного фильтра до обработки сигнала с помощью графического эквалайзера и ! фильтрование сигнала с помощью второго высокополочного фильтра после того, как сигнал был отфильтрован с помощью второго низкополочного фильтра. ! 3. Способ по п.1, в котором сигнал является звуковым сигналом. ! 4. Способ по п.1, в котором первое регулирование усиления полученного сигнала осуществляется с помощью первого усилителя, и второе регулирование усиления сигнала осуществляется с помощью второго усилителя. ! 5. Способ по п.1, в котором первый низкополочный фильтр имеет частоту среза на уровне приблизительно 1000 Гц. ! 6. Способ по п.2, в котором первый высокополочный фильтр имеет частоту среза на уровне приблизительно 1000 Гц. ! 7. Способ по п.1, в котором графический эквалайзер включает одиннадцать каскадных фильтров второго порядка. ! 8. Способ по п.7, в котором каждый фильтр второго порядка является колоколообраз� 1. A signal processing method comprising the following steps:! first gain control; ! filtering the adjusted signal using the first low-pass filter; ! compression of the filtered signal using the first compressor; ! signal processing using a graphic equalizer; ! compression of the processed signal using a second compressor; ! second gain control of the compressed signal and! signal output. ! 2. The method according to claim 1, further comprising the following steps:! filtering the signal received from the first low-shelf filter using the first high-shelf filter before compressing the filtered signal using the first compressor; ! filtering the signal using the second low-pass filter before processing the signal using the graphic equalizer and! filtering the signal with a second high-pass filter after the signal has been filtered with a second low-pass filter. ! 3. The method according to claim 1, in which the signal is an audio signal. ! 4. The method according to claim 1, in which the first gain control of the received signal is carried out using the first amplifier, and the second gain control of the signal is performed using the second amplifier. ! 5. The method according to claim 1, in which the first low-shelf filter has a cutoff frequency of approximately 1000 Hz. ! 6. The method according to claim 2, in which the first high-shelf filter has a cutoff frequency of approximately 1000 Hz. ! 7. The method according to claim 1, in which the graphic equalizer includes eleven cascade second-order filters. ! 8. The method according to claim 7, in which each second-order filter is a bell-shaped

Claims

1. A method of processing a signal, comprising the following steps:

first gain control;

filtering the adjusted signal using the first low-pass filter;

compression of the filtered signal using the first compressor;

signal processing using a graphic equalizer;

compression of the processed signal using a second compressor;

a second compression gain control and

signal output.

2. The method according to claim 1, further comprising the following steps:

filtering the signal received from the first low-shelf filter using the first high-shelf filter before compressing the filtered signal using the first compressor;

filtering the signal using a second low-pass filter before processing the signal using a graphic equalizer and

filtering the signal with a second high-pass filter after the signal has been filtered with a second low-pass filter.

3. The method according to claim 1, in which the signal is an audio signal.

4. The method according to claim 1, in which the first gain control of the received signal is carried out using the first amplifier, and the second gain control of the signal is performed using the second amplifier.

5. The method according to claim 1, in which the first low-shelf filter has a cutoff frequency of approximately 1000 Hz.

6. The method according to claim 2, in which the first high-shelf filter has a cutoff frequency of approximately 1000 Hz.

7. The method according to claim 1, in which the graphic equalizer includes eleven cascade filters of the second order.

8. The method according to claim 7, in which each second-order filter is a bell-shaped filter.

9. The method of claim 8, in which the first of eleven filters has an average carrier frequency of 30 Hz, and the eleventh filter of eleven filters has an average carrier frequency of 16000 Hz.

10. The method according to claim 9, in which the filters from the second to tenth are centered approximately at intervals of one octave from each other.

11. The audio device according to claim 2, in which the second low-pass filter is an amplitude-complementary low-pass filter.

12. The device speakers, including:

a first amplifier configured to amplify a signal;

a first low-pass filter configured to filter the amplified signal;

a first compressor configured to compress the filtered signal;

graphic equalizer configured to process the filtered signal;

a second compressor configured to compress the processed signal with a second compressor: and

a second amplifier configured to amplify the compressed signal and to output the output signal.

13. The speaker device of claim 12, further comprising:

the first high-shelf filter configured to filter the signal received from the first low-shelf filter before compressing the filtered signal using the first compressor:

a second low-pass filter configured to filter the received signal before processing the received signal using a graphic equalizer; and

a second high-pass filter configured to filter the received signal after the received signal is filtered with a second low-pass filter.

14. The speaker device of claim 12, wherein the signal is an audio signal.

15. The speaker device of claim 12, wherein the first low-shelf filter has a cutoff frequency of about 1000 Hz.

16. The speaker device of claim 12, wherein the first high-shelf filter has a cutoff frequency of about 1000 Hz.

17. The speaker device of claim 12, wherein the graphic equalizer includes eleven second-order cascade filters.

18. The device of the vehicle speakers according to 17, in which each of the second-order filters is a bell-shaped filter.

19. The speaker device of claim 18, wherein the first of eleven filters has an average carrier frequency of 30 Hz and the eleventh filter of eleven filters has an average carrier frequency of 16000 Hz.

20. The speaker device according to claim 19, in which the filters from the second to the tenth are centered approximately at intervals of one octave from each other.

21. The speaker device according to item 13, in which the second low-shelf filter is an amplitude-complementary low-shelf filter.

22. A method for processing an audio signal, comprising the following steps:

first gain control of the audio signal,

sound signal processing using the first low-pass filter,

sound signal processing using the first high-shelf filter,

processing an audio signal with a first compressor, processing an audio signal with a second low-pass filter, processing an audio signal with a second high-shelf filter, processing an audio signal with a graphic equalizer, processing an audio signal with a second compressor,

a second adjustment of the amplification of the audio signal and the output of the audio signal.

23. The method according to item 22, in which the first low-shelf filter has a cutoff frequency of approximately 1000 Hz.

24. The method according to item 22, in which the first high-shelf filter has a cutoff frequency of approximately 1000 Hz.

25. The method according to item 22, in which the graphic equalizer includes eleven cascading bell-shaped filters of the second order.